Gjør som tusenvis av andre bokelskere
Abonner på vårt nyhetsbrev og få rabatter og inspirasjon til din neste leseopplevelse.
Ved å abonnere godtar du vår personvernerklæring.Du kan når som helst melde deg av våre nyhetsbrev.
As one of the most extensive biomass resources on earth, cellulose material has the characteristics of extensive availability, biodegradability, and biocompatibility. The development of cellulose composites has the potential to meet many requirements of sustainable development. This book looks at cellulose composites in relation to surface science and applications. It provides a comprehensive summary grounded in the surface chemistry and polymer physics of cellulose composites, while enabling the reader to understand their development history, status, commercial challenges using a range of case studies and examples. This book also explores their application in biomedical, antibacterial, water treatment, flexible electronic devices, energy storage, and sensing, reviewing the recent developments, problems, and potential future developmental directions of cellulose composites. Surface Science and Advanced Functional Applications of Cellulose Composites will appeal to chemists, chemical engineers, and materials scientists engaged in biomass, cellulose, nanocellulose, composites, surface science, and related applied biomedical, antibacterial, water treatment, flexible electronic device, and energy storage fields.
Towards Future Smart Power Systems with High Penetration of Renewables: Emerging Technologies, New Tools, and Case Studies explores the latest tools and approaches for smart power systems with high-scale integration of renewable energy, covering technology, optimization, control, forecasting, and market structures. The first section of the book on emerging technologies and energy vectors identifies some of the most prominent energy carriers in future power systems, and discusses the implications of different energy technologies as well as their advantages and disadvantages. This is followed by a section focusing on new markets, businesses and structures, discussing how such energy carriers should be managed within existing or future market structures, and discussing the different opportunities and challenges bought by renewable technologies. The third part of the book analyzes real projects and case studies, offering steps forward in the large-scale integration of renewable energy in existing power systems. Finally, the fourth section examines optimization and control for power systems with renewables. covering the needs of future power systems regarding their optimization and control and describing some of the new tools required, with an emphasis on planning, management and forecasting in future power systems. Drawing on real examples, case studies, computational tools, and analysis, this book is a valuable resource for all those with an interest in renewable energy integration and smart power systems, including students, researchers, faculty, engineers, R&D, industry personnel, and policy makers.
Presents and develops the linear theory of elasticity, moving from solution methodologies, formulations, and strategies into applications of contemporary interest, such as fracture mechanics, anisotropic and composite materials, micromechanics, nonhomogeneous graded materials, and computational methods.
Fractional Modeling of Fluid Flow and Transport Phenomena focuses on mathematical and numerical aspects of fractional-order modeling in fluid flow and transport phenomena. The book covers fundamental concepts, advancements, and practical applications, including modeling developments, numerical solutions, and convergence analysis for both time and space fractional order models. Various types of flows are explored, such as single- and multi-phase flows in porous media, involving different fluid types like Newtonian, non-Newtonian, nanofluids, and ferrofluids. This book serves as a comprehensive reference on fractional-order modeling of fluid flow and transport phenomena, offering a single resource that is currently unavailable.Fractional-order modeling has gained traction in engineering and science, particularly in fluid dynamics and transport phenomena. However, its mathematical and numerical advancements have progressed relatively slowly compared to other aspects. Therefore, this book emphasizes the fractional-order modeling of fluid flow and transport phenomena to bridge this gap. Each chapter in the book delves into a specific topic closely related to the others, ensuring a cohesive and self-contained structure.
Cancer of the Breast: Epidemiology, Diagnostics and Treatment comprehensively examines all aspects of breast cancer, including classi¿cation, risk factors involved, and prevention. While offering in-depth coverage of breast cancer biology and current therapies, the book also provides insights into the ¿elds of cancer genetics and prevention, as well as surveillance strategies against breast cancer. Readers will find multidisciplinary approaches that promote the interaction between basic research and clinical research in the ¿elds of oncology, genetics, and molecular biology.This book is a valuable resource for health professionals, researchers, health practitioners, graduate and medical students, and anyone who wishes to broaden their knowledge in the allied ¿eld.
CRISPR for Climate-Smart and Sustainable Agriculture summarizes the current genome editing technology being used in food and energy crops. It presents methods and applications of CRISPR tools for breeding climate-smart and stress-tolerant crops that are better able to resist biotic and abiotic stressors due to climate change. Gene editing tools are increasingly seen as options for improving plant health and productivity. CRISPR is one such emerging and quickly advancing crucial technology for the research field of plant physiology, plant molecular biology, and crop breeding. CRISPR for Climate-Smart and Sustainable Agriculture focuses on genetic engineering using CRISPR technology for precision breeding of crops to achieve climate resilience, stress tolerance, and higher yield. Organized by specific plant challenges, this book presents expert insights from around the globe, providing updated knowledge of CRISPR with an emphasis on facing climate change and supporting sustainable agriculture. This volume in the Genome Modified Plants and Microbes in Food and Agriculture series will be valuable for researchers, academics, and advanced-level students seeking to understand and advance the use of CRISPR technologies toward the UN Sustainable Development Goals and the Paris Climate Agreement.
Abonner på vårt nyhetsbrev og få rabatter og inspirasjon til din neste leseopplevelse.
Ved å abonnere godtar du vår personvernerklæring.